KR101433820B1 - Pressure floating device with micro bubble - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a separation apparatus for treating wastewater containing domestic wastewater or wastewater or water requiring dissolved oxygen,
A wastewater tank (10) having a shaft section (12) on its body while receiving wastewater; A treatment water recovery pipe (20) installed at the center of the wastewater tank (10) and discharging treated water filtered in the wastewater through a treatment water transfer pipe (22) to a treatment site; A sludge tank 30 mounted on the upper surface of the wastewater tank 10 to receive foreign substances contained in wastewater accumulated through the shaft section 12 and discharge the foreign substances to a treatment site; And a jetting mechanism (40) slantly mounted on the wastewater tank (10) to jet air or micro bubbles toward the wall surface of the treatment water return pipe (20) to generate centrifugal force;
Since the air generator and the bubble generator are selectively operated according to the concentration of the wastewater, the foreign matter can be treated, so that it is possible to treat not only the low concentration wastewater but also the water requiring dissolved oxygen, thereby maximizing the satisfaction of the user.

Description

Technical Field [0001] The present invention relates to a pressure floating device with a micro bubble,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a separation device for removing foreign matter contained in domestic sewage, wastewater, and the like, and more particularly, To a cyclone pressurized floating apparatus using bubbles.

Generally, wastewater treatment refers to the removal of foreign substances that are dissolved and particulate in water. Such foreign substances are solidified by various methods such as surfactants, chemicals, and microorganisms, and are separated by physical methods to separate the solidified foreign substances It is a process of separating into purified water and sludge.

The physical method of separating the solidified foreign matter during the wastewater treatment process generally uses the precipitation method, but it has a disadvantage that it occupies a large area and the settled sludge is decayed to become waste water. In recent years, ozone or microbubbles And pressurized injuries using nano bubbles or the like have been developed.

Here, the principle of cyclone pressurization using the microbubbles is that the wastewater to be treated is pumped from the lower end to the upper end of the cylindrical tank, and the fine bubbles or air generated from the lower end of the cylindrical tank are blown Pump in the direction of tangent to the wall of the cylindrical tank at an angle.

Therefore, during the pumping process, the micro-bubbles and the wastewater or the air and the wastewater float in the tank while rotating between the treatment water recovery pipe at the center of the tank and the inner wall of the cylindrical tank by the centrifugal force, And the foreign matter is separated by a method in which the specific gravity is lowered to float.

However, in the conventional pressurized floating apparatus, even if the cyclone principle is applied, the pressurization of the pressurized vessel is not easy due to the structure of the apparatus, the treatment time of the foreign matter is long and the sludge is precipitated in the tank, There is a problem that not only the cost is increased by cleaning but also a separate stirrer for stirring the sediment material in the tank has to be provided.

In addition, in the conventional pressurized floating apparatus, in order to apply both the air and the minute bubbles, there is a problem that the treated water tank is moved or the water in the treated water tank is moved to the raw water tank, And the like.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a sludge treatment method and a sludge treatment method, The object of the present invention is to provide a cyclone pressurized floating apparatus using bubbles.

According to an aspect of the present invention, A wastewater tank which houses wastewater and has a shaft section on the body; A treatment water recovery pipe installed at the center of the wastewater tank for discharging treated water filtered by foreign substances contained in the wastewater to a treatment site through a treatment water moving pipe; A sludge tank mounted on an upper surface of the wastewater tank to receive foreign matter contained in wastewater accumulated through the shaft portion and discharge the foreign matter to a treatment site; And a jetting mechanism mounted on the wastewater tank in an inclined manner to generate a centrifugal force by jetting air or microbubbles toward the wall surface of the treatment water recovery tube.

As described above, the present invention includes the following effects.

First, according to the concentration of the wastewater, the air generator and the bubble generator are selectively operated to treat the foreign substance, so that it is possible to treat not only the low concentration wastewater but also the water requiring dissolved oxygen, thereby maximizing the satisfaction of the user.

Second, since the foreign matter is taken out by pressure in a state in which the foreign matter is separated into small particles by pressurization, the stirrer and the recovery equipment required for the treatment of the foreign matter are not required, and the investment cost can be reduced and the size and simplification can be achieved.

Third, since the foreign matter is separated into small particles by the interaction of the treatment water recovery pipe and the injection mechanism, the operation time due to the separation of the foreign matter is reduced, and the incidental costs and contamination sources due to the use of the medicine are reduced.

1 is a schematic diagram showing a foreign matter separating apparatus according to the present invention.

Hereinafter, an embodiment according to the present invention will be described.

1 is a schematic diagram showing a foreign matter separating apparatus according to the present invention.

As shown in FIG. 1, the separation apparatus 1 according to the present invention includes a waste water tank 10 having a shaft portion 12 on its body while receiving waste water; A treatment water recovery pipe (20) installed at the center of the wastewater tank (10) and discharging treated water filtered in the wastewater through a treatment water transfer pipe (22) to a treatment site; A sludge tank 30 mounted on the upper surface of the wastewater tank 10 to receive foreign substances contained in wastewater accumulated through the shaft section 12 and discharge the foreign substances to a treatment site; And a jetting mechanism (40) slantly mounted on the wastewater tank (10) for jetting air or microbubbles toward the wall surface of the treatment water return pipe (20) to generate centrifugal force.

The separation apparatus 1 according to the present invention comprises a wastewater tank 10, a treated water recovery pipe 20, a sludge tank 30, and a jetting mechanism 40. Particularly, It is added that the bubble generator 42 and the air generator 46 of the mechanism 40 are selectively or sequentially applied.

The wastewater tank 10 accommodates and processes various kinds of wastewater including food waste wastewater and livestock wastewater, and includes a body portion 14 forming a space having a predetermined size to receive the wastewater, and a body portion 14 And a shaft tube portion 12 which is integrally formed on the upper side of the shaft portion 12 and increases the moving speed of the foreign matter.

In this case, the shaft portion 12 refers to an inclined surface in which the cross-sectional area decreases toward the inner side with respect to the upper end of the body portion 14.

The wastewater tank 10 is provided with wastewater supply means having an inclination angle corresponding to the angle of installation of the injection mechanism 40. The wastewater supply means is connected to a wastewater flow pipe 16 And a wastewater pump 18 for feeding the wastewater that moves by the wastewater moving pipe 16.

The treatment water recovery pipe 20 is a tube mounted vertically on the bottom surface of the wastewater tank 10, preferably at the center of the body portion 14, And discharges the treated water to be filtered, and it is preferable that the internal cost ratio with the wastewater tank 10 is 1: 3.

Further, a process water transfer pipe 22 for discharging the process water to the process site 24 is provided at the lower end of the process water recovery pipe 20.

A treatment water valve (26) mounted on the pipe of the treatment water moving pipe (22) for adjusting the discharge amount of the treatment water is provided.

At this time, in the process of constructing the process water transfer pipe 22, it is preferable to mount the process water transfer pipe 20 on the lower end of the process water recovery pipe 20 so that the process water processed by the wastewater tank 10 is discharged downward Do.

The horizontal portion A having the same height as the height of the treatment water return pipe 20 is formed in the process of constructing the treatment water moving pipe 22 so that the inner pressure of the wastewater tank 10 and the treatment water Is preferably controlled.

The sludge tank 30 is mounted on the upper surface of the wastewater tank 10 and maintains the closed state by the lid 32. The sludge tank 30 accommodates the foreign matter, And the inclination angle of the discharge surface C is set to 15 ° obliquely or stepwise on the basis of the bottom surface B so as to improve various efficiencies according to the discharge of the foreign matter.

The sludge tank 30 has a sludge recovery pipe 36 attached to the lower side of the side surface of the discharge surface C and discharging foreign matter to the treatment site 34.

The injection mechanism 40 is mounted on the lower side of the side surface of the wastewater tank 10 and injects air or micro bubbles toward the wall surface of the treatment water return pipe 20, And a bubble generating mechanism for generating fine bubbles. The air injection nozzle 48 and the bubble injection nozzle 44 are preferably mounted at an inclination angle of 45 °.

That is, either the air generating mechanism or the bubble generating mechanism may be used alone, in accordance with the concentration of the wastewater contained in the wastewater tank 10 and the necessity of the dissolved oxygen, The amount of dissolved oxygen may be increased by continuously using the bubble generating mechanism.

The air generator includes an air generator 46 disposed at the side of the wastewater tank 10 to generate air and air generated by the air generator 46 to the processing water recovery pipe 20, And an air injection nozzle 48 for generating a centrifugal force.

The bubble generator may include a bubble generator 42 disposed at a side portion of the wastewater tank 10 to generate a micro bubble and a micro bubble generated by the bubble generator 42 to the treatment water recovery tube 20 And a bubble ejection nozzle 44 for generating a centrifugal force.

Hereinafter, the operation according to the present invention will be described.

First, when the separation device 1 of the present invention is operated, once the wastewater pump 18 is operated to supply wastewater through the wastewater moving pipe 16, The wastewater is sprayed on the road at an angle of inclination.

Then, when the air generator 46 constituting the injection mechanism 40 is operated to supply air through the air injection nozzle 48, air is blown to the outer wall of the treatment water return pipe 20 at an angle of 45 degrees to the air Is strongly sprayed.

In this way, the air pressurized by the air injection nozzle 48 generates centrifugal force in the wastewater tank 10, so that the wastewater flows between the treatment water recovery pipe 20 and the wastewater tank 10 at a high speed It will rotate.

The foreign matter in the wastewater tank 10 is separated into small particles, and in this process, the specific gravity is lowered and is strongly floated, so that the foreign substances in the air float naturally into the sludge tank 30.

In this process, when the internal pressure of the wastewater tank 10 is raised by regulating the treatment water valve 26, small foreign substances floating in the air float up into the sludge tank 30 and are naturally stored.

The discharge surface C of the sludge tank 30 is inclined at a predetermined angle with respect to the bottom surface B so that the foreign substances in the sludge tank 30 are discharged to the treatment place 34 naturally. .

The treated water separated from the wastewater tank 10 by the wastewater tank 10 is discharged through the treated water moving pipe 22 and flows into the treatment water flow pipe 22 and the treatment water valve 26, The flow rate is determined.

That is, the separation device 1 is determined by the internal pressure (pressurization) of the wastewater tank 10, and in particular, the jet air and the foreign matter of the wastewater tank 10, Lt; / RTI >

On the other hand, after the operation of the air generating mechanism is completed, the bubble generating mechanism can be operated to treat the treated water close to the purification level.

However, since the operation of the bubble generating mechanism is the same as that of the first embodiment except for the method using the minute bubbles in place of the air, a detailed description will be omitted here.

Therefore, the air generating mechanism is a suitable method for treating the high-concentration wastewater with the low-concentration wastewater, and the use of the bubble generating mechanism is useful as a method for treating the low-concentration wastewater or the water requiring the dissolved oxygen.

Description of the Related Art [0002]
10: Wastewater tank 12:
14: body portion 16: waste water transfer pipe
18: waste water pump 20: treated water recovery pipe
22: treated water migration pipe 24: treated place
26: treated water valve 30: sludge tank
32: Cover 34: Treatment place
36: sludge recovery pipe 40: injection mechanism
42: bubble generator 44: bubble jet nozzle
46: air generator 48: air injection nozzle

Claims (8)

A wastewater tank (10) having a shaft section (12) on its body while receiving wastewater;
A treatment water recovery pipe (20) installed at the center of the wastewater tank (10) and discharging treated water filtered in the wastewater through a treatment water transfer pipe (22) to a treatment site;
A sludge tank 30 mounted on the upper surface of the wastewater tank 10 to receive foreign substances contained in wastewater accumulated through the shaft section 12 and discharge the foreign substances to a treatment site; And
A bubble generator 42 slantly mounted on the wastewater tank 10 to generate the microbubbles to spray microbubbles toward the wall surface of the treatment water recovery tube 20 and a bubble generator 42 generated by the bubble generator 42 And a bubble jet nozzle 44 for generating a centrifugal force by jetting the micro bubble obliquely to the wall surface of the process water recovery pipe 20 or for blowing air toward the wall surface of the process water recovery pipe 20 And an air injection nozzle (48) for generating centrifugal force by obliquely spraying the air generated by the air generator (46) to the wall surface of the process water recovery pipe (20) (40);
Wherein the microbubble is applied to the cyclone pressurized flotation device.
The water treatment system according to claim 1, wherein the treated water recovery pipe (20)
And the internal cost ratio with the wastewater tank (10) is 1: 3.
The water treatment system according to claim 1, wherein the treated water moving pipe (22)
And the height of the treatment water recovery pipe (20) is the same as the height of the treatment water recovery pipe (20). The water treatment system according to claim 1, wherein the treated water moving pipe (22)
And is mounted to the lower end of the treated water recovery pipe (20) to discharge the treated water to the lower portion.
The sludge tank (30) according to claim 1, wherein the sludge tank (30)
And the inclination angle of the discharge surface (C) is formed obliquely at 15 DEG with reference to the bottom surface (B).
delete delete The injection apparatus according to claim 1, wherein the injection mechanism (40)
And a side wall of the wastewater tank (10) is mounted at an inclination angle of 45 [deg.].

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